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sortix--sortix/kernel/net/fs.cpp
Jonas 'Sortie' Termansen 2b72262b4f Relicense Sortix to the ISC license.
I hereby relicense all my work on Sortix under the ISC license as below.

All Sortix contributions by other people are already under this license,
are not substantial enough to be copyrightable, or have been removed.

All imported code from other projects is compatible with this license.

All GPL licensed code from other projects had previously been removed.

Copyright 2011-2016 Jonas 'Sortie' Termansen and contributors.

Permission to use, copy, modify, and distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.

THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
2016-03-05 22:21:50 +01:00

539 lines
15 KiB
C++

/*
* Copyright (c) 2013, 2014 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* net/fs.cpp
* Filesystem based socket interface.
*/
// TODO: Should this be moved into user-space?
#include <sys/socket.h>
#include <sys/un.h>
#include <assert.h>
#include <errno.h>
#include <stddef.h>
#include <stdint.h>
#include <string.h>
#include <sortix/fcntl.h>
#include <sortix/poll.h>
#include <sortix/socket.h>
#include <sortix/stat.h>
#include <sortix/kernel/descriptor.h>
#include <sortix/kernel/inode.h>
#include <sortix/kernel/ioctx.h>
#include <sortix/kernel/kernel.h>
#include <sortix/kernel/kthread.h>
#include <sortix/kernel/mtable.h>
#include <sortix/kernel/pipe.h>
#include <sortix/kernel/poll.h>
#include <sortix/kernel/process.h>
#include <sortix/kernel/refcount.h>
#include <sortix/kernel/sockopt.h>
#include "fs.h"
namespace Sortix {
namespace NetFS {
class Manager;
class StreamSocket;
class Manager : public AbstractInode
{
public:
Manager(uid_t owner, gid_t group, mode_t mode);
virtual ~Manager() { }
virtual Ref<Inode> open(ioctx_t* ctx, const char* filename, int flags,
mode_t mode);
public:
bool Listen(StreamSocket* socket);
void Unlisten(StreamSocket* socket);
Ref<StreamSocket> Accept(StreamSocket* socket, ioctx_t* ctx, uint8_t* addr,
size_t* addrsize, int flags);
int AcceptPoll(StreamSocket* socket, ioctx_t* ctx, PollNode* node);
bool Connect(StreamSocket* socket);
private:
StreamSocket* LookupServer(struct sockaddr_un* address);
private:
StreamSocket* first_server;
StreamSocket* last_server;
kthread_mutex_t manager_lock;
};
class StreamSocket : public AbstractInode
{
public:
StreamSocket(uid_t owner, gid_t group, mode_t mode, Ref<Manager> manager);
virtual ~StreamSocket();
virtual Ref<Inode> accept(ioctx_t* ctx, uint8_t* addr, size_t* addrsize,
int flags);
virtual int bind(ioctx_t* ctx, const uint8_t* addr, size_t addrsize);
virtual int connect(ioctx_t* ctx, const uint8_t* addr, size_t addrsize);
virtual int listen(ioctx_t* ctx, int backlog);
virtual ssize_t recv(ioctx_t* ctx, uint8_t* buf, size_t count, int flags);
virtual ssize_t send(ioctx_t* ctx, const uint8_t* buf, size_t count,
int flags);
virtual ssize_t read(ioctx_t* ctx, uint8_t* buf, size_t count);
virtual ssize_t write(ioctx_t* ctx, const uint8_t* buf, size_t count);
virtual int poll(ioctx_t* ctx, PollNode* node);
virtual int getsockopt(ioctx_t* ctx, int level, int option_name,
void* option_value, size_t* option_size_ptr);
virtual int setsockopt(ioctx_t* ctx, int level, int option_name,
const void* option_value, size_t option_size);
private:
int do_bind(ioctx_t* ctx, const uint8_t* addr, size_t addrsize);
public: /* For use by Manager. */
PollChannel accept_poll_channel;
Ref<Manager> manager;
PipeEndpoint incoming;
PipeEndpoint outgoing;
StreamSocket* prev_socket;
StreamSocket* next_socket;
StreamSocket* first_pending;
StreamSocket* last_pending;
struct sockaddr_un* bound_address;
bool is_listening;
bool is_connected;
bool is_refused;
kthread_mutex_t socket_lock;
kthread_cond_t pending_cond;
kthread_cond_t accepted_cond;
};
static void QueueAppend(StreamSocket** first, StreamSocket** last,
StreamSocket* socket)
{
assert(!socket->prev_socket);
assert(!socket->next_socket);
socket->prev_socket = *last;
socket->next_socket = NULL;
if ( *last )
(*last)->next_socket = socket;
if ( !*first )
*first = socket;
*last = socket;
}
static void QueueRemove(StreamSocket** first, StreamSocket** last,
StreamSocket* socket)
{
if ( socket->prev_socket )
socket->prev_socket->next_socket = socket->next_socket;
else
*first = socket->next_socket;
if ( socket->next_socket )
socket->next_socket->prev_socket = socket->prev_socket;
else
*last = socket->prev_socket;
}
StreamSocket::StreamSocket(uid_t owner, gid_t group, mode_t mode,
Ref<Manager> manager)
{
inode_type = INODE_TYPE_STREAM;
dev = (dev_t) manager.Get();
ino = (ino_t) this;
this->type = S_IFSOCK;
this->stat_uid = owner;
this->stat_gid = group;
this->stat_mode = (mode & S_SETABLE) | this->type;
this->prev_socket = NULL;
this->next_socket = NULL;
this->first_pending = NULL;
this->last_pending = NULL;
this->bound_address = NULL;
this->is_listening = false;
this->is_connected = false;
this->is_refused = false;
this->manager = manager;
this->socket_lock = KTHREAD_MUTEX_INITIALIZER;
this->pending_cond = KTHREAD_COND_INITIALIZER;
this->accepted_cond = KTHREAD_COND_INITIALIZER;
}
StreamSocket::~StreamSocket()
{
if ( is_listening )
manager->Unlisten(this);
delete[] bound_address;
}
Ref<Inode> StreamSocket::accept(ioctx_t* ctx, uint8_t* addr, size_t* addrsize,
int flags)
{
ScopedLock lock(&socket_lock);
if ( !is_listening )
return errno = EINVAL, Ref<Inode>(NULL);
return manager->Accept(this, ctx, addr, addrsize, flags);
}
int StreamSocket::do_bind(ioctx_t* ctx, const uint8_t* addr, size_t addrsize)
{
if ( is_connected || is_listening || bound_address )
return errno = EINVAL, -1;
size_t path_offset = offsetof(struct sockaddr_un, sun_path);
size_t path_len = (path_offset - addrsize) / sizeof(char);
if ( addrsize < path_offset )
return errno = EINVAL, -1;
uint8_t* buffer = new uint8_t[addrsize];
if ( !buffer )
return -1;
if ( ctx->copy_from_src(buffer, addr, addrsize) )
{
struct sockaddr_un* address = (struct sockaddr_un*) buffer;
if ( address->sun_family == AF_UNIX )
{
bool found_nul = false;
for ( size_t i = 0; !found_nul && i < path_len; i++ )
if ( address->sun_path[i] == '\0' )
found_nul = true;
if ( found_nul )
{
bound_address = address;
return 0;
}
errno = EINVAL;
}
else
errno = EAFNOSUPPORT;
}
delete[] buffer;
return -1;
}
int StreamSocket::bind(ioctx_t* ctx, const uint8_t* addr, size_t addrsize)
{
ScopedLock lock(&socket_lock);
return do_bind(ctx, addr, addrsize);
}
int StreamSocket::connect(ioctx_t* ctx, const uint8_t* addr, size_t addrsize)
{
ScopedLock lock(&socket_lock);
if ( is_listening )
return errno = EINVAL, -1;
if ( is_connected )
return errno = EISCONN, -1;
if ( addr && do_bind(ctx, addr, addrsize) != 0 )
return -1;
if ( !bound_address )
return errno = EINVAL, -1;
return manager->Connect(this) ? 0 : -1;
}
int StreamSocket::listen(ioctx_t* /*ctx*/, int /*backlog*/)
{
ScopedLock lock(&socket_lock);
if ( is_connected || is_listening || !bound_address )
return errno = EINVAL, -1;
if ( !manager->Listen(this) )
return -1;
return 0;
}
ssize_t StreamSocket::recv(ioctx_t* ctx, uint8_t* buf, size_t count,
int /*flags*/)
{
ScopedLock lock(&socket_lock);
if ( !is_connected )
return errno = ENOTCONN, -1;
return incoming.read(ctx, buf, count);
}
ssize_t StreamSocket::send(ioctx_t* ctx, const uint8_t* buf, size_t count,
int /*flags*/)
{
ScopedLock lock(&socket_lock);
if ( !is_connected )
return errno = ENOTCONN, -1;
return outgoing.write(ctx, buf, count);
}
ssize_t StreamSocket::read(ioctx_t* ctx, uint8_t* buf, size_t count)
{
return recv(ctx, buf, count, 0);
}
ssize_t StreamSocket::write(ioctx_t* ctx, const uint8_t* buf, size_t count)
{
return send(ctx, buf, count, 0);
}
int StreamSocket::poll(ioctx_t* ctx, PollNode* node)
{
if ( is_connected )
{
PollNode* slave = node->CreateSlave();
if ( !slave )
return -1;
int incoming_result = incoming.poll(ctx, node);
int outgoing_result = outgoing.poll(ctx, slave);
return incoming_result == 0 || outgoing_result == 0 ? 0 : -1;
}
if ( is_listening )
return manager->AcceptPoll(this, ctx, node);
return errno = ENOTCONN, -1;
}
int StreamSocket::getsockopt(ioctx_t* ctx, int level, int option_name,
void* option_value, size_t* option_size_ptr)
{
if ( level != SOL_SOCKET )
return errno = EINVAL, -1;
uintmax_t result = 0;
switch ( option_name )
{
case SO_RCVBUF: result = incoming.Size(); break;
case SO_SNDBUF: result = outgoing.Size(); break;
default: return errno = ENOPROTOOPT, -1; break;
}
if ( !sockopt_return_uintmax(result, ctx, option_value, option_size_ptr) )
return -1;
return 0;
}
int StreamSocket::setsockopt(ioctx_t* ctx, int level, int option_name,
const void* option_value, size_t option_size)
{
if ( level != SOL_SOCKET )
return errno = EINVAL, -1;
uintmax_t value;
if ( !sockopt_fetch_uintmax(&value, ctx, option_value, option_size) )
return -1;
switch ( option_name )
{
case SO_RCVBUF:
if ( SIZE_MAX < value )
return errno = EINVAL, -1;
if ( !incoming.Resize((size_t) value) )
return -1;
break;
case SO_SNDBUF:
if ( SIZE_MAX < value )
return errno = EINVAL, -1;
if ( !outgoing.Resize((size_t) value) )
return -1;
break;
default:
return errno = ENOPROTOOPT, -1;
}
return 0;
}
Manager::Manager(uid_t owner, gid_t group, mode_t mode)
{
inode_type = INODE_TYPE_UNKNOWN;
dev = (dev_t) this;
ino = 0;
this->type = S_IFDIR;
this->stat_uid = owner;
this->stat_gid = group;
this->stat_mode = (mode & S_SETABLE) | this->type;
this->manager_lock = KTHREAD_MUTEX_INITIALIZER;
this->first_server = NULL;
this->last_server = NULL;
}
static int CompareAddress(const struct sockaddr_un* a,
const struct sockaddr_un* b)
{
return strcmp(a->sun_path, b->sun_path);
}
StreamSocket* Manager::LookupServer(struct sockaddr_un* address)
{
for ( StreamSocket* iter = first_server; iter; iter = iter->next_socket )
if ( CompareAddress(iter->bound_address, address) == 0 )
return iter;
return NULL;
}
static StreamSocket* QueuePop(StreamSocket** first, StreamSocket** last)
{
StreamSocket* ret = *first;
assert(ret);
QueueRemove(first, last, ret);
return ret;
}
bool Manager::Listen(StreamSocket* socket)
{
ScopedLock lock(&manager_lock);
if ( LookupServer(socket->bound_address) )
return errno = EADDRINUSE, false;
QueueAppend(&first_server, &last_server, socket);
socket->is_listening = true;
return true;
}
void Manager::Unlisten(StreamSocket* socket)
{
ScopedLock lock(&manager_lock);
while ( socket->first_pending )
{
socket->first_pending->is_refused = true;
kthread_cond_signal(&socket->first_pending->accepted_cond);
socket->first_pending = socket->first_pending->next_socket;
}
socket->last_pending = NULL;
QueueRemove(&first_server, &last_server, socket);
socket->is_listening = false;
}
int Manager::AcceptPoll(StreamSocket* socket, ioctx_t* /*ctx*/, PollNode* node)
{
ScopedLock lock(&manager_lock);
if ( socket->first_pending &&
((POLLIN | POLLRDNORM) & node->events) )
return node->master->revents |= ((POLLIN | POLLRDNORM) & node->events), 0;
socket->accept_poll_channel.Register(node);
return errno = EAGAIN, -1;
}
Ref<StreamSocket> Manager::Accept(StreamSocket* socket, ioctx_t* ctx,
uint8_t* addr, size_t* addrsize, int /*flags*/)
{
ScopedLock lock(&manager_lock);
// TODO: Support non-blocking accept!
while ( !socket->first_pending )
if ( !kthread_cond_wait_signal(&socket->pending_cond, &manager_lock) )
return errno = EINTR, Ref<StreamSocket>(NULL);
StreamSocket* client = socket->first_pending;
struct sockaddr_un* client_addr = client->bound_address;
size_t client_addr_size = offsetof(struct sockaddr_un, sun_path) +
(strlen(client_addr->sun_path)+1) * sizeof(char);
if ( addr )
{
size_t caller_addrsize;
if ( !ctx->copy_from_src(&caller_addrsize, addrsize, sizeof(caller_addrsize)) )
return Ref<StreamSocket>(NULL);
if ( caller_addrsize < client_addr_size )
return errno = ERANGE, Ref<StreamSocket>(NULL);
if ( !ctx->copy_from_src(addrsize, &client_addr_size, sizeof(client_addr_size)) )
return Ref<StreamSocket>(NULL);
if ( !ctx->copy_to_dest(addr, client_addr, client_addr_size) )
return Ref<StreamSocket>(NULL);
}
// TODO: Give the caller the address of the remote!
Ref<StreamSocket> server(new StreamSocket(0, 0, 0666, Ref<Manager>(this)));
if ( !server )
return Ref<StreamSocket>(NULL);
QueuePop(&socket->first_pending, &socket->last_pending);
if ( !client->outgoing.Connect(&server->incoming) )
return Ref<StreamSocket>(NULL);
if ( !server->outgoing.Connect(&client->incoming) )
{
client->outgoing.Disconnect();
server->incoming.Disconnect();
return Ref<StreamSocket>(NULL);
}
client->is_connected = true;
server->is_connected = true;
// TODO: Should the server socket inherit the address of the listening
// socket or perhaps the one of the client's source/destination, or
// nothing at all?
kthread_cond_signal(&client->accepted_cond);
return server;
}
bool Manager::Connect(StreamSocket* socket)
{
ScopedLock lock(&manager_lock);
StreamSocket* server = LookupServer(socket->bound_address);
if ( !server )
return errno = ECONNREFUSED, false;
socket->is_refused = false;
QueueAppend(&server->first_pending, &server->last_pending, socket);
kthread_cond_signal(&server->pending_cond);
server->accept_poll_channel.Signal(POLLIN | POLLRDNORM);
while ( !(socket->is_connected || socket->is_refused) )
if ( !kthread_cond_wait_signal(&socket->accepted_cond, &manager_lock) &&
!(socket->is_connected || socket->is_refused) )
{
QueueRemove(&server->first_pending, &server->last_pending, socket);
return errno = EINTR, false;
}
return !socket->is_refused;
}
// TODO: Support a poll method in Manager.
Ref<Inode> Manager::open(ioctx_t* /*ctx*/, const char* filename,
int /*flags*/, mode_t /*mode*/)
{
if ( !strcmp(filename, "stream") )
{
StreamSocket* socket = new StreamSocket(0, 0, 0666, Ref<Manager>(this));
return Ref<StreamSocket>(socket);
}
return errno = ENOENT, Ref<Inode>(NULL);
}
void Init(const char* devpath, Ref<Descriptor> slashdev)
{
ioctx_t ctx; SetupKernelIOCtx(&ctx);
Ref<Inode> node(new Manager(0, 0, 0666));
if ( !node )
PanicF("Unable to allocate %s/net/fs inode.", devpath);
// TODO: Race condition! Create a mkdir function that returns what it
// created, possibly with a O_MKDIR flag to open.
if ( slashdev->mkdir(&ctx, "net", 0755) < 0 && errno != EEXIST )
PanicF("Could not create a %s/net directory", devpath);
if ( slashdev->mkdir(&ctx, "net/fs", 0755) < 0 && errno != EEXIST )
PanicF("Could not create a %s/net/fs directory", devpath);
Ref<Descriptor> mpoint = slashdev->open(&ctx, "net/fs", O_READ | O_WRITE, 0);
if ( !mpoint )
PanicF("Could not open the %s/net/fs directory", devpath);
Ref<MountTable> mtable = CurrentProcess()->GetMTable();
// TODO: Make sure that the mount point is *empty*! Add a proper function
// for this on the file descriptor class!
if ( !mtable->AddMount(mpoint->ino, mpoint->dev, node, false) )
PanicF("Unable to mount filesystem on %s/net/fs", devpath);
}
} // namespace NetFS
} // namespace Sortix